Status monitoring system for a fenestration unit

ABSTRACT

A status monitoring device for a fenestration unit is provided. The device is positioned in or on the fenestration unit and includes a panel position sensor and a lock status sensor. The device is capable of transmitting panel position data and lock status data to a remote device, trigger an audible alarm on the device or the remote device, trigger a visual alarm on the device or the remote device, or a combination of these.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims benefit of U.S. Provisional Application No.60/991,459, filed Nov. 30, 2007, which is hereby incorporated byreference in its entirety.

BACKGROUND

Building security systems can vary in complexity from simple burglaralarms triggered by breakage of windows or other fenestration members,to comprehensive intrusion detection systems that collect data fromvideo cameras, laser beams, infrared sensors, microphones, etc., analyzethe data, and communicate information to a variety of destinations, suchas security stations and automated building control centers. Whilecomplex and relatively expensive security systems are useful,applications such as residential housing need a simpler, lower costmonitoring system capable of collecting multiple types of securityrelated data and transmitting data to one or more locations for analysisand/or action. The system's data collecting and transmitting componentsshould also be self contained and self powered, possess wirelesscommunication capability, and be relatively simple to install in bothnew and existing structures.

SUMMARY

In one embodiment, a fenestration unit is provided that includes aframe, at least one panel disposed in the frame with the panel beingmovable between a closed position and an open position, and a lockingmember having a locked position, for locking the panel in the closedposition, and an unlocked position for allowing the panel to be opened.A first sensor is included to detect when the panel is in the closedposition and when the panel is in the open position and a second sensoris included to detect when the latch is in the locked position and whenthe latch is in the unlocked position. A processor coupled to the firstsensor and the second sensor is also included, with the processor beingprogrammed to determine a status of the fenestration unit based at leaston the detections of the sensors. Optionally, this embodiment caninclude a transmitter for transmitting the status of the fenestrationunit to a remote location. Further, either the first sensor or thesecond sensor can include a reed switch and an associated magnet, or caninclude a mechanical switch. The fenestration unit in this embodimentcan be a window, or can be a door. Further still, an indicator can beincluded on the fenestration unit that indicates the status of thefenestration unit, and the indicator can be an audible signal generatoror can be a light source.

In another embodiment, a status monitoring device for a fenestrationunit is provided that includes at least a first panel and a second panelmovable with respect to the first panel. The device in this embodimentincludes a switch on the first panel, and a switch triggering componenton the second panel. The device transmits a first signal when the switchis in a first position proximate the triggering component and transmitsa second signal when the switch is in a second position not proximatethe triggering component. For example, the first position could beparallel the magnet and the second position could be non-parallel themagnet. Optionally, the switch of the device is adjacent a latch.Optionally still, the device can include a visible light signal outputdevice that indicates whether the switch is in the first position or thesecond position. Further, the device can include an audible outputdevice that provides an audible alarm when the switch is moved from thefirst position. Further still, the device can include a position sensorthat triggers an alarm when the switch is moved from the first position.In this embodiment, the fenestration unit can be a window and the devicecan be integral the window. Alternatively, the fenestration unit can bea door adjacent a wall and the device can be part of a slide bar lockmoveable between the door and the wall. The switch can be a magneticallyoperated reed switch, and the triggering component can be a magnet.

In another embodiment, a status monitoring device is installed adjacenta lock that includes a latch and a keeper. The device in this embodimentincludes a first housing disposed adjacent the latch, a second housingdisposed adjacent the keeper, a switch disposed in the first housing orin the second housing, a switch triggering component disposed in thefirst housing or in the second housing, and a transmitter forcommunicating the position of the latch with respect to the keeper to aremote location. Optionally, the switch triggering component can be amagnet. Optionally still, the device can include a visible light signaloutput indicating whether the switch is in the first position or thesecond position. Further, the device can include an audible outputdevice capable of providing an audible alarm when the latch is movedwith respect to the keeper or when other predetermined events occur.Further still, the device can include a position sensor that triggers analarm when the latch is moved from the keeper. The device of thisembodiment can be installed under the lock, and a reed switch can beinstalled adjacent the lock.

In another embodiment, a status monitoring system for a closure assemblyis provided. The system includes a locking member position sensor, aclosure panel position sensor, a status code generator, and a statuscode transmitter. In this embodiment, the locking member positionsensor, the closure panel position sensor, the status code generator,and the status code transmitter are integrated into a single unitarydevice, which is positioned to sense the position of a locking memberand the position of a closure panel. The status code generator in thisembodiment generates a status code based upon both locking memberposition and closure panel position. Further, a status code receiver andan output device can be provided. Further still, the locking memberposition sensor can be a magnetically operated reed switch, amechanically operated switch, an acoustical sensor, Radio FrequencyIdentification (RFID) device, or an optical sensor. Optionally, theclosure position sensor can be a magnetically operated reed switch, amechanically operated switch, an acoustical sensor, an RFID device, oran optical sensor. In this embodiment, a battery can be contained withinthe unit, with the battery being held in a battery carrier movable froma position interior the unit to a position exterior the unit.

In another embodiment, a status monitoring system for a closure assemblyis provided. The closure assembly includes a fixed frame holding a panelmoveable from a closed position to an open position, and a lockingmember for holding the panel in the closed position. The system includesa monitoring device that includes a locking member position sensor, aclosure panel position sensor, a microprocessor, and a status codetransmitter. The locking member position sensor, the closure panelposition sensor, the microprocessor, and the status code transmitteroperate in an electronically integrated manner. The monitoring device ispositioned to sense both the position of the locking member and theposition of the closure panel. The microprocessor generates a statuscode that integrates the locking member status with closure panelposition. Generally, the system includes a status code receiver.Optionally, the system includes an output device. The locking memberposition sensor generally is a magnetically operated reed switch, amechanically operated switch, an acoustical sensor, RFID device, or anoptical sensor. Further, the closure position sensor is a magneticallyoperated reed switch, a mechanically operated switch, an acousticalsensor, an RFID device, or an optical sensor. The system can alsoinclude a battery contained within the monitoring device. The batterycan be held in a battery carrier movable from a position interior theunit to a position exterior the unit.

The device of this invention generally provides a status monitoring thatis coupled to or interfaces with a fenestration unit, its components,and its surrounding environs. Such a device may be incorporated, forexample, in the latch mechanism of a double hung window unit or thestrike plate of a door. The information collected or received by thedevice can include various status reports of the fenestration unititself such as whether the fenestration unit is open or closed. Thedevice can gather information from the fenestration units componentssuch as locks to detect whether the lock is locked or unlocked, or cancollect information about the environment surrounding the fenestrationunit, such as outside or inside temperature, humidity, moisture, light,motion, etc. Also, the device can gather information such as the time ofa change in the position of the fenestration unit, the position of thelock, or an interior or exterior environment.

The information gathered can be recorded or processed locally by thedevice, can be locally output via a light, alarm, or other visual oraudible source, and/or can be exported to another unit, such as via awired or wireless link to a central information unit with storage orcommand capabilities, where further processing can be performed. Suchfurther processing can include transmitting a message to an alarmmonitoring system or notifying authorities and/or the occupants of abuilding of a triggering event. The central information unit can collectand store information either from a single status monitoring device, orcan collect information from multiple monitoring devices.

The status monitoring device can communicate a condition of thefenestration unit or its surroundings to the occupant of the room vialight, sound, or the like. Based on information sensed by the device orinformation provided to the device (from another source), the device cancommunicate to the occupant, such as through a series of light flashesor audible beeps. For example, if a smoke detector in a building sensesa fire or smoke, a signal can be sent to status monitoring devices onthe windows and/or doors. The devices can then trigger flashing lights,audible beeps, or the like, which can act as a beacon, indicating anexit route out of the building. The device lights or beepers can alsoflash or sound to indicate a tripped security alarm in the building or aweather alert in the area where the building is located.

In some embodiments, the status monitoring device can either beinstalled on an existing fenestration unit, such as under existinghardware, such as a latch assembly, or can be installed duringmanufacture of a new fenestration unit. The device can be utilized onall types of fenestration units (windows and doors), for example,including casement, awning, roof window, double hung, single hung,gliding, hinged patio doors, sliding patio doors, entry doors, andgarage doors.

The device can interface with a fenestration unit as well as itshardware and surroundings, can detect the condition of the hardware aswell as the venting status of the fenestration unit, and can, forexample, enable a builder or contractor to monitor the windows and doorsduring construction to provide a level of security or awareness on thejobsite during building construction.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a first embodiment of a status monitoring device under atraditional latch on a fenestration unit.

FIG. 2 shows a part view of the first embodiment status monitoringdevice housing and circuit board.

FIG. 3 shows a cut-away view of the status monitoring device of thefirst embodiment.

FIG. 4 shows a cut-away view of a status monitoring device of a secondembodiment in the rail of the fenestration unit under a traditionallatch.

FIG. 5 shows a partially deconstructed view of a status monitoringdevice of a third embodiment in a rail of a fenestration unit adjacent asliding-type latch with an integrated magnet.

FIG. 6 shows the third embodiment of the status monitoring device ofFIG. 5 with the latch in position on the rail.

FIG. 7 shows the third embodiment installed in position in afenestration unit.

FIG. 8 shows a cut-away view of a status monitoring device of a fourthembodiment for a slide bar latch.

FIG. 9 shows a partial cut-away view of a status monitoring device of afifth embodiment for a deadbolt latch.

FIGS. 10A and 10B show the status monitoring device of the fifthembodiment.

FIG. 11 shows a sixth embodiment of a status monitoring device for amultiple lock system.

FIG. 12 shows cut-away view of the sixth embodiment.

FIG. 13 shows a flow chart of information able to be collected by thestatus monitoring device of the invention and able to be transmitted toa remote command unit.

FIG. 14 shows a diagram of electronic components for an example statusmonitoring device.

DETAILED DESCRIPTION

For a more complete understanding of the present invention, referencewill be made to the following detailed description and accompanyingdrawings, wherein like reference numerals designate corresponding partsthroughout the figures.

To facilitate an understanding and explanation of the invention, theelements and numerals as described herein may be referred to with theterms “upper,” “lower,” “top,” “bottom,” “front,” and “back” todistinguish portions of the device. These conventions are merelyincluded for ease of explanation and understanding and should not beconstrued as limiting in any manner. The descriptions of the partsdetailed herein as “upper,” “lower,” etc. also can be referred to as“first,” “second,” etc.

FIG. 1 shows a first embodiment of a status monitoring device under atraditional latch on a fenestration unit, with status monitoring device10 having a first housing 20 under latch element base 40 and secondhousing 30 under keeper element base 50. The first housing 20 is affixedunder latch element base 40 by screws 5 to the top rail or check rail 12of lower sash of fenestration unit 15 (such as a single or double hungwindow), while second housing 30 is affixed under keeper 50 by screws 5to the bottom rail 14 of upper sash of fenestration unit 15. A latch 45generally is affixed atop latch element base 40 and is capable of beingselectively engaged with keeper 50. The status monitoring device 10 iscapable of detecting whether the latch 45 is engaged within keeper 50.Also shown in FIG. 1, status monitoring device 10 can optionally includean indicator light (or lights) 60 and can optionally include an audibleoutput 70, such as a speaker, beeper, or alarm. If a status monitoringdevice according to FIG. 1 is to be installed on an existingfenestration unit, the lock is first removed from the rails by removingthe screws and then reinstalled atop the housings 20 and 30.

FIG. 2 shows a part view of the first embodiment of the device 10including the status monitoring device's first housing 20, secondhousing 30, and circuit board 80. The circuit board 80 can include abattery, a microprocessor, a transmitting unit, receiving unit,circuitry, sensors, and/or other sensors that collect information.

The status monitoring system discussed herein is not limited to anyparticular mechanical configuration, but can be utilized to integrateany reliable indication of lock engagement with any reliable indicationof panel closure to produce a status code that is wirelessly transmittedto a status code receiver. Further, other types of information, inaddition to lock position status and panel position status, can also besensed and transmitted to status code receiver 110. Installation ofmonitor unit 50 and spacer 56 can be performed during factory assemblyor as a retrofit at any later time.

FIG. 3 shows a cut-away view of the status monitoring device of thefirst embodiment in an exemplary configuration. The status monitoringdevice 10 can be placed outside the sash to allow retrofitting to anexisting sash. Referring to FIG. 3, second housing 30 contains a magnet35 that triggers an indication that trips a reed switch 96 in housing 20when the window is closed as an indication of a closed window condition.Latch 45 is suitably configured to allow space for a monitor unit 90with portion 92 for operating lock position switch 94 and magneticallyoperated reed switch 96. The term lock position switch is used herein inthe broad sense of any device, such as an optical or an RFID device,that provides a signal indicative of when lock 45 is moved from theunlocked to the locked position, or from the locked to the unlockedposition. The magnetically operated reed switch 96 and magnet 35cooperate to provide information about the device 10, such as whetherthe window sashes are separated and thus the window is open.

In place of the described switch 96 and magnet 35, which sense theproximity of first housing 20 to second housing 30, other embodimentscan use alternative proximity sensors, which can be based on optical,mechanical, RFID, or other proximity sensitive phenomena.

Another common fenestration configuration is that in which one panelslides past another panel. Examples of this configuration includevertically sliding windows, such as single hung or double hung windows,and horizontally sliding windows and doors. FIG. 4 shows a cut-away viewof a status monitoring device of a second embodiment built into the railof the fenestration unit beneath a traditional latch mechanism.Referring to FIG. 4, vertically sliding top rail of lower sash 112,sometimes referred to as the check rail, overlaps or aligns with thelower rail of upper sash 114 when the window is closed, as shown, andthe rails moves apart when the window is opened. The upper sash may alsobe slidable, in which case the overall window unit is called a doublehung unit, or it may be fixed, in which case the overall window unit iscalled a single hung unit. When both sashes are in the closed position,latch 145 can be rotated into engagement with keeper 150 to lock the twosashes together, thereby preventing the opening of either sash.

Monitor unit 190, located in check rail 112, is equipped withmagnetically operated reed switch 196 and a mechanical switch 192. Rail114 is equipped with magnet 135. When both sashes are in the closedposition shown in FIG. 4, magnet 135 is in close proximity to reedswitch 196, thereby activating it to produce a signal indicative thatthe sashes are in the closed position. Latch 145 is equipped withprojecting finger 193, attached to a shaft 191, which engages ordisengages activation portion 194 of switch 192 to activate ordeactivate the switch as an indication that the latch has been engagedor disengaged. Activation portion 194 is typically a spring biased leveror button coupled to an electrical switch. Monitor 190 electronicallyintegrates the indications of lock status and sash closure status intoan integrated status code or information I that is transmitted to astatus code receiver.

FIG. 5 shows a partially deconstructed view of a status monitoringdevice of a third embodiment in a rail of a fenestration unit adjacent asliding-type latch with an integrated magnet. Such sliding-type latchesare common in casement windows. FIG. 6 shows the third embodiment of thestatus monitoring device of FIG. 5 with the latch in position on therail. As shown in FIGS. 5 and 6, rail 212 is routed or otherwise formedwith latch base receiving space 211 and with latch receiving space 213,which are sized to receive latch base 240 and latch 245. Latch 245, whenoperated to latch or unlatch a window, moves magnet 296 toward or awayform reed switch 235 within cover 232, activating or deactivating thereed switch as an indication that latch 245 is properly seated,indicating the fenestration unit is secured in a locked position, or isnot properly seated, indicating the fenestration unit is not secured ina locked position. Circuit board 280 detects activation or deactivationof reed switch 235, determines the condition of the latch based thereonand transmits the condition to a remote receiver that cooperates withmagnetically operated reed switch 235 to transmit the position of latch245. As shown in FIGS. 5 and 6, circuit board 280 is contained within acover 232 disposed adjacent the latch base 240 in space 211. FIG. 7shows the third embodiment installed in position in a fenestration unit.As shown in FIG. 7, the rail 212 is turned over from the position shownin FIGS. 5 and 6, which results in the lock 240 and the cover 232housing the circuit board being disposed on the outermost side of therail 212.

A status monitoring device can also be used with other types of locksand latches, such as a slide bar as shown in FIG. 8. In FIG. 8, slidebar 300 is slidably attached to jamb 330, so that it is able to slidelongitudinally upwardly in direction 301, and downwardly in direction302. Slide bar 300 is equipped with coupling features for coupling toone or more locking devices and for coupling to a central operator whichenables the user to slide the slide bar up and down. In the particularembodiment of FIG. 8, moving bar 300 upward moves the locks coupled toit to the locked position, and sliding it downward unlocks the locks.The slide bar can be used to operate only one lock, or it can operatetwo or more locks simultaneously, depending upon how many locks arecoupled to the slide bar. Several methods of coupling locks andoperating mechanisms to the slide bar are known. Referring to FIG. 8,for example, openings 304 are provided for engaging the teeth of gearthat operates a lock, in a rack and pinion manner. Peg 306, which mayprovide a coupling to a lock or to an operating mechanism, is adapted toengage a cam or a pivoting lever. Slide bar locking mechanisms arecommonly used to operate more than one lock simultaneously. Such lockingsystems are commonly called multipoint locks, and can be found incasement and other hinged windows, as well as in patio and storm doors.

Referring again to FIG. 8, monitor 390 is located adjacent to edge 332of jamb 330. Monitor 390 is equipped with magnetic reed switches 396 and397. Slide bar 300 is equipped with magnet 334. When slide bar 300 ismoved upwardly, to the locking position, magnet 334 is brought intoclose proximity to magnetically operated reed switch 397, therebyactivating it to produce an indication that the slide bar is in thelocking position. In a similar manner, panel 320, which may be a door orwindow panel, is equipped with magnet 335. When panel 320 is moved tothe closed position, magnet 335 is brought into close proximity tomagnetically operated reed switch 396, thereby activating it as anindication that panel 320 is in the closed position. Monitor 390electronically integrates the indications of lock status and panelclosure status into an integrated status code I that is transmitted to aremote status code receiver.

In an alternative embodiment, magnetic reed switch 397 is replaced by amechanical switch operated by the end of slide bar 300 making physicalcontact with it, thereby depressing an actuator portion and closing anassociated switch.

FIG. 9 shows a partial cut-away view of a status monitoring device of afifth embodiment for a deadbolt latch. In FIG. 9, a portion of a hingedclosure panel 430, which may be a door panel, is shown in a closedposition adjacent to vertical frame member, or jamb, 420. As usedherein, the term closure panel will include doors, windows, and otherlike panels used in fenestration units. The panels may be hinged,sliding, or otherwise moveable. Closure panel 430 may be hinged to pivotabout a vertical axis parallel to the page in FIG. 9. Lock 440 isprovided in panel 430 for holding and locking panel 430 in its closedposition relative to jamb 420. In this embodiment, lock 440 includes twolocking members, latch 445, typically operated by a doorknob, handle, orother direct operating device, and deadbolt 446, which typicallyrequires a key to operate. The key could be a conventional mechanicalkey or could be a card or other like device that operates locks by, forexample, activating an electronic circuit or electromechanical device.Locking members 445 and 446 perform their locking function by engagingwith apertures 454 and 456, respectively, in receiver plate 451, whichis fixedly attached to jamb 420. Mortise 452 is provided in jamb 420 toprovide space for locking members 445 and 446 to pass through receiverplate 451, in the conventional manner.

In the embodiment portrayed in FIG. 9, closure status monitoring unit490 is contained within mortise 452. In this embodiment, device 490 isheld in place by a tab on receiver plate 451. Monitor device 490 ispositioned proximate to deadbolt 446, as well as to edge 432 of panel430. Unit 490 contains a position sensor that senses whether deadbolt446 is in the extended, or locked, position, or whether it is in theretracted, or unlocked, position. One useful position sensor is amechanical switch, having actuator 496, which is moved from an opencircuit position to a closed circuit position or vice versa whendeadbolt 446 is extended through aperture 456 in receiver plate 451.Also contained within unit 490 is a second sensor, for sensing theproximity of panel 430 to unit 490, which indicates whether panel 430 isopen or closed. In this fifth embodiment, the second sensor is amagnetically actuated reed switch that moves from an open circuitposition to a closed circuit position or vice versa when magnet 435 isbrought into sufficiently close proximity to it, as would occur whenpanel 430 is in the closed position. As latch 445 extends its lockedposition with respect to receiver space 452, the deadbolt 446 engagesswitch 496 on monitor 490 to indicate a locked condition, which can betransmitted to an external source receiver via antennae 495.Alternatively though not shown, the mechanical switch 496 shown in FIGS.9 and 10 can be replaced with an electronic switch not requiringphysical contact with the latch 445 to indicate a locked condition.FIGS. 10A and 10B show close-up views of the status monitoring device ofthe fifth embodiment, showing circuit board 480 within monitor 490, andshowing mechanical switch 496 extending from monitor 490.

Alternative embodiments can be formed in several variations. Inparticular, a lock position sensor can also be used to sense theposition of latch 445. If the position of both latch 445 and deadbolt446 are sensed, the lock status code would need to be expanded todescribe the status of the locking members fully. Further, the physicalconfiguration of unit 490 need not be limited to that shown in FIG. 9.The unit could, for example, be shaped to snap into the mortise withoutthe use of a tab, could be configured to attach to plate 451 prior toinstallation of plate 451, or could be made up of two or more units thatplug into one another to form a single unit. Further still, themonitoring unit can be made up of physically separate subunits, providedthe subunits function in an electronically integrated manner. Also,sensors other than reed switches can be used, and when this is done, thecircuitry for receiving the status signals and generating andtransmitting the status codes will change accordingly.

The monitoring system can also be adapted to monitor the status offenestration units having more than one lock. FIG. 11 shows a sixthembodiment of a status monitoring device for a multiple lock system.FIG. 12 shows cut-away view of the sixth embodiment. In FIGS. 11 and 12,window unit 500, viewed from the interior of a building structure,includes vertically sliding sashes 512 and 514. Sashes 512 and 514 canbe secured by locking them together using latches 540 and 640, in theconventional manner. Latches 540 and 640 may further include tiltlatches that engage jamb liners 516 and 518 and can be retracted toallow sash 512 to be tilted inward for cleaning or other maintenancepurposes. A lock monitoring unit, as disclosed hereinabove, may beincorporated into latch 540 or 640, to monitor its status as beinglocked or unlocked. While monitoring of the status of lock 640 can bedone by the use of a second monitoring unit, having its own codetransmission capability, an alternative, and perhaps more costeffective, system is shown in FIG. 12. In FIG. 12, lock 640 is providedwith a lock position sensor, which is connected, through transmissionline 515 to the status monitoring device in lock 540, which thencombines the status of lock 640 with that of lock 540 to produce anintegrated signal portraying the overall status of both locks.Transmission line 515 can, for example, be simply a pair of wiresconnected to a position sensing switch in lock 640. Alternatively,transmission line 515 can be a pair of optical fibers, connected to ashutter, which is controlled by the position of lock 640. In yet anotherembodiment, the monitoring device in lock 540 can contain a light sourcedirected toward lock 640, along with a light sensor, and lock 640 can beequipped with a reflective device that is moveable from a reflectingposition to a non-reflecting position, wherein light from the lightsource is reflected back to the light sensor when lock 640 is in oneposition and not reflected when lock 640 is in another position. In thiscase, transmission line 515 may not be a solid transmission medium, butrather an open or transparent space through which light can betransmitted. Other modes of communication between locks 540 and 640 willbe apparent to one skilled in the art. The open or closed position ofsash 512 relative to 514 can be sensed by a magnet and a magnetic reedswitch, in a manner similar to that portrayed in FIGS. 5-7. An expandedcode can be calculated to portray the complete status of window 500, asshown in Table 1, in which a locked condition is represented by 1, anunlocked condition by 0, a closed position by 1, and an open position by0. The code in Table 1 may be embedded in any suitable protocol, and maybe encrypted for security or other purposes.

TABLE 1 STATUS CODE Lock 540 unlocked, lock 640 unlocked, sash open 000Lock 540 locked, lock 640 unlocked, sash open 100 Lock 540 unlocked,lock 640 locked, sash open 010 Lock 540 locked, lock 640 locked, sashopen 110 Lock 540 unlocked, lock 640 unlocked, sash closed 001 Lock 540locked, lock 640 unlocked, sash closed 101 Lock 540 locked, lock 640locked, sash closed 111 Lock 540 unlocked, lock 640 locked, sash closed011

FIG. 13 shows a flow chart of information able to be collected by thestatus monitoring device of the invention and transmitted to a remotecommand unit. The device provides an interface to monitor thefenestration unit, or its environs, to which the device is attached orassociated. The interface generally collects information and then either(1) stores such information, (2) triggers an alarm, light, or otherdisplay on the device itself, (3) transmits, either constantly orperiodically, such information to a remote information receiving unit,or (4) a combination of these or other features. In one embodiment, thestatus monitoring device transmits information periodically to conservebattery life.

Referring to FIG. 14, box 700 encompasses a functional diagram ofelectronic circuitry that may be contained within the monitor unit.Components performing the functions shown within box 700 mayconveniently be located on a single circuit board, though otherconfigurations are also possible. Generally, while the componentsperforming the functions portrayed in FIG. 14 may not be physicallyintegrated into a single unit, the components will be located in closeproximity to one another and will function electronically as a singleunit, transmitting a status code signal that integrates the informationfrom all of the associated sensors into a single signal. A device thatoperates in this manner will be said to function in an electronicallyintegrated manner. Alternative sensing devices that provide otheroptional inputs 703 may be provided, for example, as plug-in units thatplug into a primary circuit board. Alternative sensing units may requirethat additional signal processing be provided in order for the overalldevice to function in an electronically integrated manner. FIG. 14 isexemplary of operation of a deadbolt latch, such as the one detailed inFIGS. 9-10 above.

Lock position sensor 702, which senses the position of deadbolt 62, can,as portrayed in FIGS. 9-10, be a mechanical switch actuated by contactwith deadbolt 62. Alternatively, deadbolt position could be sensed byoptical devices, sonic devices, RFID devices, or other suitable positionsensing devices. Deadbolt 62 can be adapted for particular methods ofsensing by providing it with reflective surfaces, RFID capability, orother suitable adaptations. Further, sensors for sensing lock conditionsother than deadbolt position may also be provided.

Panel position sensor 704 can be a magnetically activated reed switchthat is activated by magnet 435, contained in edge 432 of panel 430, asportrayed in FIG. 9. Plate 451 contains a third aperture to allow aportion of unit 490 to extend through it, thereby enhancing the magneticcoupling of magnet 435 with switch 704. The extension of unit 490through plate 451 also allows access to unit 490 that may be needed, forexample, for battery replacement. Other devices for sensing the positionof panel 430 relative to jamb 420 may include binary devices that sensewhen panel 430 is sufficiently near to be considered closed, orsufficiently far to be considered open.

Microprocessor 706 is programmed to combine the signals from lockposition sensor 702 and panel position sensor 704 to generate a codethat describes or encodes the status of panel 430 and lock 440. The typeof code used is not particularly limited, provided it fully describesthe status of the panel and lock, and is understood by the codereceiver. An example of a suitable code for a binary system, wherein thelock is either locked or unlocked, and the door is either open orclosed, is shown in Table 2.

The code generated by code generator 706 is sent, possibly in encryptedform, to RF amplifier 711, which generates, in cooperation withoscillator 709, a signal that is sent to antenna 713 for transmission ofthe status code to the status code receiver 710. The receiver 710 can belocated some distance from antenna 713, for example in another room of ahouse, or perhaps even in an adjacent building, such as a garage orother structure. If necessary, the status code receiver 710 can decryptthe transmission received from antenna 713.

In an alternative embodiment, rather than being programmed to integratelock status and panel position status into a single code, code generator706 generates and transmits separate codes for lock status and panelposition, and sends each, along with codes to identify them as lockstatus or panel position, to the status code receiver 710, whichintegrates the codes into an appropriate overall status code.

TABLE 2 STATUS CODE Lock unlocked, door open 00 Lock unlocked, doorclosed 01 Lock locked, door open 10 Lock locked, door closed 11

It will be appreciated that the code shown in Table 2 can be furtherencoded to simplify the information presented to the user by sending asingle open door code, namely 00, to the system to indicate that thedoor is open, whether locked or unlocked.

Status code receiver 710 receives the status code signal from antenna713 and provides one or more suitable responses to the status codesignals. Possible responses include outputs, such as an action 721 ordisplay 723, to video displays, audio alarms, lighting devices, andother components of a security system. The status code shown in Table 2need not be the exact protocol used in transmission. The code may beembedded in any suitable data transmission protocol, and can further beencrypted, for security or other reasons. Information beyond that shownin Table 2 may need to be transmitted, for example when a sensor iscapable of sensing the specific degree to which a fenestration panel isopen. When this is the case, an expanded code, along with the necessaryelectronic capability, can be created. Further, status code receiver 710may be a stand alone unit or may be incorporated into a comprehensivesecurity system.

The functions contained within box 700 in FIG. 14 generally will notrequire an outside power source, but will instead rely on an internalpower source 701 such as a battery. In order to fit monitor 490 into asmaller space, it is useful for the battery to be as small as possible,thereby limiting the amount of power that such a battery would be ableto deliver over an extended period of time. Several power savingfeatures can be incorporated into the electronic functions of monitor490. In particular, monitor 490 can be set only to transmit informationwhen information needs to be transmitted. Generally, information istransmitted in packets, with three different types of informationpackets sent, namely registration packets, event packets, andsupervisory packets. A battery may last months or years under suchconditions. Additionally, other power sources, such as piezoelectricdevices and other energy harvesting systems may be incorporated into themonitoring device, either alone or in combination with more conventionalsources, such as batteries.

A registration data packet is transmitted upon installation of a batteryin monitor 490. The registration data packet contains a code identifyingthe source of the registration data packet as being monitor 490. Whenmonitor 490 is first installed, the programming interface can be used toenter information concerning the location of monitor 490, a descriptionof the window or door in which it is installed, and other likeinformation, in a manner that matches the entered information with theidentification code for monitor 490. Upon replacement of a battery, theregistration information is retransmitted. Optionally, otherinformation, such as the date and time of battery replacement, may berecorded by the status code receiver, for convenience in maintainingmaintenance records.

A second type of packet is an event packet, which is sent when an eventsuch as locking or unlocking a lock, or opening or closing a panel,occurs. Inconsistencies between the lock status and panel status can beinterpreted by the status code receiver as events requiring attention.Depending on the types of sensors installed in monitor 490, other eventcodes representing, for example, glass breakage, sudden acceleration ofthe panel, temperature, or other evidence of an event requiringattention, can also be contained in the packet. Battery power isconserved by transmitting an event packet only when an event occurs.

Another type of packet is the supervisory information packet, which issent at set time periods to inform the status code receiver that monitor490 is still operating. Failure to receive a supervisory packet within aprescribed time causes the receiver to generate an alarm signal.Possible causes for failure to receive a supervisory signal mightinclude such things as broken electrical connections, a dead battery,and obstruction of the signal coming from antenna 713. Other batterysaving strategies can also be employed, such as choosing an optimalvoltage ramp-up profile just prior to beginning transmission.

Despite all efforts at power conservation, batteries will eventuallyapproach failure, whether due to power consumption or simply due to thebattery shelf life being exceeded. Useful features in circuitry includereverse polarity protection 705 to protect against incorrect batteryinsertion, an LED indicator 715 for diagnostics and installationtroubleshooting purposes, and an accessible programming interface 717 toupgrade the code or software on transmitter post installation. In orderto avoid loss of the monitoring function, it is useful to be able todetect deteriorating battery performance before actual failure. Onemeasure of battery condition is the drop in output voltage when outputcurrent increases. Since a significant amount of current is drawn when asignal is being transmitted, one measure of battery condition is thevoltage supplied to the signal transmitting function, in particularoscillator 709. Low battery detection device 707 monitors this voltageduring transmission and compares it to the voltage between transmissionsto determine the condition of the battery on an ongoing basis. If thebattery is approaching failure, detection device 707 sends a signal tomicroprocessor 706, which creates an appropriate code to send to thestatus code receiver.

The device can display information on the device itself, such as bydisplaying time or temperature, can include a light, such as aLight-Emitting Diode (LED) that switches from green, e.g. when a lock isunlocked, to red when fully locked, or can provide an alarm to indicatea triggering event, such as the unlocking of a locked window. The devicecan monitor, collect, and display internal information inside a buildingand/or can monitor, collect, and display external information, such asexternal temperature, humidity, light, moisture, ultraviolet light, windspeed, etc. Further, the device can monitor, collect, and displayhardware information, such as whether a lock is being or has beentampered with, or whether a lock is in a locked or unlocked condition.Further still, the present device can provide information about thefenestration unit to which it is attached or associated, such as whethera window or door is open or closed.

Once information is collected by the device, generally by or through thestatus code receiver, the information can be transferred to aninformation collection unit, which generally is remote from the device.In one embodiment, the device transmits the information wirelessly, suchas via radio waves, microwave, Bluetooth, or other wireless transmissionprotocol, to the information collection unit (status code receiver). Inanother embodiment, the device may be directly or hard wired to theinformation collection unit. Additionally, the device can receiveexternally provided information, such as from the information collectionunit or other unit, which can transmit information to the device in anembodiment which allows the device to receive information, such assevere weather alerts. The device in such embodiment can then respondaccordingly, such as by displaying a warning light or an audible soundto apprise building occupants of such severe weather alerts or othercondition.

The information collection unit can receive information from more thanone status monitoring device. Generally, once information is transferredfrom a device to the information collection unit, the informationcollection unit can further manipulate or otherwise utilize theinformation, such as store information from the monitoring device(s),display warnings identifying which information collection devices aresignaling or have signaled a specified event to warn a building occupantthat an event has occurred. Information such as movement of a window ordoor from a set position as detected with an accelerometer, that theexternal humidity has increased or decreased, that it is rainingoutside, etc. can be relayed from the monitoring device to theinformation collection unit. The information from the monitoring devicecan be transmitted and displayed by the information collection device toan internet website, a cell phone, a Personal Digital Assistant (PDA),remote control, or some other system capable of displaying suchinformation. The information collection device can be controlledexternally by a switch, remote, computer, cell phone, PDA, internet, orany external manipulation device that can be used to control, display,notify, store, or otherwise use information. Additionally, suchinformation can be transmitted to a monitoring company, such as an alarmcompany, to protect a building or building's occupants, such as bycontacting the police, fire, or other authorities, or the building'soccupants of a triggering event.

There are at least four general scenarios for providing informationwirelessly from the present status monitoring device. In scenario 1, thestatus monitoring device provides local awareness via an alarm, visuallight indicator, or other local device to inform building occupantsabout the lock, fenestration unit, or their environs. For example, thestatus monitoring device can indicate whether the window is open orclosed, whether the lock is locked or unlocked, information about theinternal or external environment, and transmit information to a centralinformation receiving unit. The status monitoring device will allowmonitoring of several events and trigger an alarm or light to warn thatsuch event has occurred, such as activating an alarm if a lock or windowis forced open, the indicator light can glow green if the lock isunlocked and glow red if the lock is locked, or the indicator light canblink if an alarm is armed. The sensor can be mounted into the strike ofthe lock to monitor proximity of the lock and enable a user to identifyby immediate visual inspection of the light on the front of the lockwhether the lock is fully engaged, locked, or unlocked. Further still,scenario 1 shows that the status monitoring device can include abuilt-in transmitter to transmit the lock status or information aboutthe fenestration unit or its environs to a remote receiver, such as atabletop or wall mounted receiver device. In scenario 2, a windowmonitor can receive a signal from at least one status monitoring deviceto show the window or lock status or information collected by thedevice's sensors. In scenario 3, a security system can receive thesignal from the device(s); such security system can be a brand namesecurity system that can then use the information to notify a buildingoccupant or authorities of a triggering event. In scenario 4, theability to monitor the device(s) anywhere via cell phone, internetconnection, PDA, or the like is provided.

The status monitoring device can include additional features, such as anaccelerometer or displacement or position sensor (hereinafter“accelerometer”). Such accelerometer or displacement or position sensorcan capture or detect whether a window sash or door panel has changedposition, such as from a sudden movement of the window or door. Forexample, a window can be set in a venting position and an alarm armed(this would provide secure venting). If the sash is then moved from theset venting position, an accelerometer can detect such sash movement andprovide information of the occurrence of such event. An accelerometercan also detect impact or jarring of a window or door, which can be theresult of a forced entry, an extreme weather condition, or a childtrying to open the window. An accelerometer can also detect rotation ofa window sash or a door panel. The position change or displacement of awindow or a door can also be detected using several other sensingdevices in lieu of an accelerometer, such as optical sensors,capacitance sensors, pressure sensors, Hall Effect sensors, encoderwheels, and potentiometers (resistors) or the like.

The device of this invention utilizes the hardware components of awindow or door as an interface to obtain information. Some examples ofhardware components that correspond to specific window types andexamples of information that such hardware components can provideinclude, but are not limited to, the following:

Hung Windows (Double Hung and Single Hung):

-   -   Locks—Information of the locked/unlocked status    -   Keepers—Information on the open/closed status, locked/unlocked        status    -   Tilt Latches—Position detection, open/closed status    -   Pivot Pins—Position detection, open/closed status    -   Sash Balance System—Information on the system

Gliding Window and Doors:

-   -   Locks—Information of the locked or unlocked status    -   Keepers (baskets)—Information on the open/closed status,        locked/unlocked status    -   Glide Wheels or Glide Pins—Position detection, open/closed        status

Casement/Awning Window:

-   -   Operators—Sense human contact, information on the open/closed        status    -   Hinges—Information on the open/closed status    -   Locks—Information of the locked/unlocked status, impact sensing.    -   Keepers—Information of the locked/unlocked status, impact        sensing

Hinge Doors

-   -   Hinges—Position detection, open/closed status    -   Locks and deadbolts—Open/closed status, locked/unlocked status    -   Handles—Open/closed status, locked/unlocked status, sensing        human contact    -   Keepers (baskets)—Open/closed status, locked/unlocked status    -   Multipoint Locks—Locked/unlocked status, impact sensing

The invention has been described in terms of preferred configurationsand methodologies considered by the inventors to be the best mode ofcarrying out the invention. These preferred embodiments are presented asexamples only and should not be construed as limiting the scope of theinvention. A wide variety of additions, deletions, and modifications tothe illustrated and described embodiments might be made by those ofskill in the art without departing from the spirit and scope of theinvention.

1. A status monitoring device for a window or door, the window or doorincluding at least one panel movable between an open panel position anda closed panel position, and the window or door including at least onelatch movable between a locked position and an unlocked position, thedevice comprising: a first sensor that detects whether the at least onepanel is in the open panel position or the closed panel position; asecond sensor that detects whether the at least one latch is in thelocked position or the unlocked position; and, a code generator thatgenerates codes; the codes including a latch status code separate from apanel status code; the latch status code indicating the detectedposition of the latch and the panel status code indicating the detectedposition of the panel.
 2. The device of claim 1 wherein the devicetransmits a first signal when the latch is in the locked position andtransmits a second signal when the latch is in the unlocked position. 3.The device of claim 1 further including an output from an indicator. 4.The device of claim 3 wherein the output comprises one or more ofvisible light, display, audible signal, wireless transmission, or wiredtransmission.
 5. The device of claim 1 further including a codetransmitter for transmitting the codes generated by the code generator.6. The device of claim 1 wherein the first sensor comprises at least oneof a reed switch, a mechanically operated switch, a mechanical switch,an acoustical sensor, an RFID device, or an optical sensor.
 7. Thedevice of claim 1 wherein the second sensor comprises at least one of areed switch, a mechanically operated switch, a mechanical switch, anacoustical sensor, RFID device, or an optical sensor.
 8. The device ofclaim 1 wherein the device is operable to gather information aboutenvironmental conditions surrounding the window or door, with theinformation comprising at least one of outside temperature, insidetemperature, humidity, moisture, light, or motion.
 9. The device ofclaim 8 wherein the device is operable to gather a time of a change ofinformation about the window or door.
 10. The device of claim 9 whereinthe information comprises at least one of the time of the change inposition of the at least one movable panel of the window or door, thetime of the change in position of the at least one latch of the windowor door, the time of the change of at least one interior environmentalcondition, or the time of the change of at least one exteriorenvironmental condition.
 11. The device of claim 1 further comprising abattery in a battery carrier that is movable from a position interiorthe device to a position exterior the device.
 12. The device of claim 1wherein the movement of the at least one panel is toward the closedposition.
 13. The device of claim 1 wherein the code generator islocated remote from the monitoring device.
 14. The device of claim 1wherein the first sensor detects whether the latch is in the lockedposition or the unlocked position independent of the position of the atleast one panel.
 15. The device of claim 1 wherein the codes generateddefine a set of four possible states: (1) open and unlocked, (2) openand locked, (3) closed and unlocked, or (4) closed and locked.
 16. Thedevice of claim 1 wherein the codes generated are encoded to define aset of three possible states: (1) open, (2) closed and unlocked, or (3)closed and locked.
 17. The device of claim 1 wherein the codes generatedare transmitted to a status code receiver.
 18. The device of claim 1wherein the codes generated are transmitted wirelessly to a status codereceiver.
 19. The device of claim 1 further comprising a visual display.20. The device of claim 1 further comprising an audio output.
 21. Thedevice of claim 1 wherein the device transmits a first signal when thepanel is in the open panel position and transmits a second signal whenthe panel is in the closed panel position.
 22. A status monitoringdevice for a window or door that includes at least one slidable panelmovable between an open position and a closed position, the devicecomprising: a latch coupled to a base, the base being attached to the atleast one slidable panel; a keeper; the latch engaging the keeper whenthe at least one slidable panel is in the closed position; a firstsensor that detects whether the panel is in the open position or theclosed position; a second sensor that detects whether the latch is in alocked position or an unlocked position; and; a transmitter fortransmitting the detected position of the latch with respect to the baseindependent of the detected position of the at least one slidable panel.23. The device of claim 22 wherein the second sensor comprises at leastone of a reed switch, a mechanically operated switch, a mechanicalswitch, an acoustical sensor, RFID device, or an optical sensor.
 24. Thedevice of claim 22 further comprising an output from an indicator. 25.The device of claim 24 wherein the output comprises one or more ofvisible light, display, or audible signal.
 26. The device of claim 22wherein the device is operable to gather information about environmentalconditions surrounding the window, with the information comprising atleast one of outside temperature, inside temperature, humidity,moisture, light, or motion.
 27. The device of claim 26 wherein thedevice is operable to gather a time of a change of information about thewindow.
 28. The device of claim 27 wherein the information comprises atleast one of the time of the change in position of the at least oneslidable panel of the window or door, the time of the change position ofthe latch, the time of the change of at least one interior environmentalcondition, or the time of the change of at least one exteriorenvironmental condition.
 29. A status monitoring device for a closureassembly, the closure assembly including at least one panel movablebetween an open position and a closed position, the closure assemblyfurther comprising a locking assembly, the locking assembly comprising:at least one latch located on the at least one panel, an operatorassembly located on the at least one panel, and a coupling memberoperatively connecting the at least one latch with the operatorassembly; the monitoring device comprising: a first sensor for detectingthe position of the panel; a second sensor for detecting the position ofa moving element of the locking assembly; a code generator forgenerating codes defining the panel position and the moving elementposition; and, a code transmitter for transmitting the generated codesto a code receiver.
 30. The device of claim 29 further comprising anoutput from an indicator.
 31. The device of claim 30 wherein the outputcomprises one or more of visible light, display, audible signal,wireless transmission, or wired transmission.
 32. The device of claim 29wherein the latch position sensor comprises at least one of a reedswitch, a mechanically operated switch, an acoustical sensor, an RFIDdevice, or an optical sensor.
 33. The device of claim 29 wherein thepanel position sensor comprises at least one of a reed switch, amechanically operated switch, an acoustical sensor, or an opticalsensor.
 34. The device of claim 29 further comprising a battery in abattery carrier that is movable from a position interior the device to aposition exterior the device.
 35. The device of claim 29 wherein thedevice is operable to gather information about environmental conditionssurrounding the closure assembly, with the information comprising atleast one of outside temperature, inside temperature, humidity,moisture, light, or motion.
 36. The device of claim 29 wherein thedevice is operable to gather a time of a change of information.
 37. Thedevice of claim 36 wherein the information comprises at least one of thetime of the change in position of the closure assembly, the time of thechange position of the latch, the time of the change of at least oneinterior environmental condition, or the time of the change of at leastone exterior environmental condition.
 38. The device of claim 29 whereinthe coupling member is remotely connected to the at least one latch. 39.A hinged closure assembly comprising: a frame including a latchreceiver; at least one panel disposed in the frame, the at least onepanel being movable between a closed position and an open position; alatch having a locked position, for locking the at least one panel inthe closed position, and an unlocked position; the latch including atleast one movable element and a base; the movable element engaging thelatch receiver in the locked position; a first sensor detecting when theat least one panel is in the closed position and when the at least onepanel is in the open position; a second sensor detecting when themovable element is in the locked position relative to the base and whenthe movable element is in the unlocked position relative to the lockassembly; and, a processor coupled to the first sensor and the secondsensor, the processor programmed to determine a status of the closureassembly based at least on the detections of the sensors.
 40. Theclosure assembly of claim 39 further comprising a transmitter fortransmitting the status of the window or door.
 41. The closure assemblyof claim 39 wherein at least one of the first and second sensorscomprises at least one of a reed switch, a mechanically operated switch,a mechanical switch, an acoustical sensor, RFID device, or an opticalsensor.
 42. The closure assembly of claim 39 wherein the first sensorindicates movement of the at least one panel.
 43. The closure assemblyof claim 42 further comprising an output from an indicator.
 44. Theclosure assembly of claim 43 wherein the output comprises one or more ofvisible light, display, audible signal, wireless transmission, or wiredtransmission.
 45. The closure assembly of claim 39 wherein the window ordoor is operable to gather information about environmental conditionssurrounding the window or door, with the information comprising at leastone of outside temperature, inside temperature, humidity, moisture,light, or motion.
 46. The closure assembly of claim 45 wherein theclosure assembly is operable to gather a time of a change ofinformation.
 47. The closure assembly of claim 46 wherein theinformation comprises at least one of the time of the change in positionof the at least one panel, the time of the change position of the latch,the time of the change of at least one interior environmental condition,or the time of the change of at least one exterior environmentalcondition.
 48. A status monitoring device for a closure assembly,wherein the closure assembly comprises a fixed frame and at least onepanel movable between a closed position and an open position, the devicecomprising: a latch movable from a locked position to an unlockedposition: a latch position sensor; a panel position sensor; amicroprocessor; and, a code transmitter; wherein the latch positionsensor senses the position of the latch, wherein the panel positionsensor senses the position of the panel, and wherein a combination ofthe panel position sensor, the latch position sensor, themicroprocessor, and the status code transmitter operate in anelectronically integrated manner; and wherein the device is positionedto sense both the position of the latch and the position of the at leastone panel; and wherein the microprocessor generates a status code thatintegrates the latch position with the panel position.
 49. The device ofclaim 48 further comprising an output from an indicator.
 50. The deviceof claim 48 wherein the output comprises one or more of visible light,display, audible signal, wireless transmission, or wired transmission.51. The device of claim 48 wherein the latch position sensor comprisesat least one of a reed switch, a mechanically operated switch, amechanical switch, an acoustical sensor, RFID device, or an opticalsensor.
 52. The device of claim 48 wherein the panel position sensorcomprises at least one of a reed switch, a mechanically operated switch,a mechanical switch, an acoustical sensor, an RFID device, or an opticalsensor.
 53. The device of claim 48 further comprising a battery in abattery carrier that is movable from a position interior the device to aposition exterior the device.
 54. The device of claim 48 wherein thedevice is operable to gather information about environmental conditionssurrounding the closure assembly, with the information comprising atleast one of outside temperature, inside temperature, humidity,moisture, light, or motion.
 55. The device of claim 54 wherein thedevice is operable to gather a time of a change of information.
 56. Thedevice of claim 55 wherein the information comprises at least one of thetime of the change in position of the at least one panel, the time ofthe change of position of the latch, the time of the change of at leastone interior environmental condition, or the time of the change of atleast one exterior environmental condition.
 57. A lock assembly for awindow or door comprising: an elongate longitudinally sliding memberoriented generally parallel to an edge of a window or door panel andtranslating in a direction generally parallel to the edge of the windowor door panel; a latch operated by the sliding member for locking awindow or door panel; an operator that slides the elongate member tomove the latch between unlocked and locked positions; a first sensor fordetecting, independent of sliding member position, whether the panel isin an open or closed position; a second sensor for detecting,independent of panel position, whether the latch is in the unlocked orlocked position; and a code generator for generating codes defining astatus of the window or door, wherein the codes define the status asbeing one of the following: panel open, latch unlocked; panel open,latch locked; panel closed, latch unlocked; or panel closed, latchlocked.
 58. The lock assembly of claim 57 wherein the second sensorcomprises at least one of a reed switch, a mechanically operated switch,a mechanical switch, an acoustical sensor, RFID device, or an opticalsensor.
 59. The lock assembly of claim 57 wherein the first sensorcomprises at least one of a reed switch, a mechanically operated switch,a mechanical switch, an acoustical sensor, RFID device, or an opticalsensor.
 60. The lock assembly of claim 57 wherein the output comprisesone or more of visible light, display, audible signal, wirelesstransmission, or wired transmission.
 61. The lock assembly of claim 57wherein the assembly is attached to the sliding member.
 62. The deviceof claim 5 wherein the device is operable to combine the latch positionand panel position into a single code and transmit the code to a remotelocation.
 63. The device of claim 62 wherein the device is operable togather a time of a change of information.
 64. A status monitoring devicefor a window or door, the window or door including at least one panelmovable between an open panel position and a closed panel position, thedevice comprising: a panel position detector for detecting whether thepanel is in the open panel position or the closed panel position, a lockassembly that at least includes a cam and a base; wherein the camengages a keeper when the lock is in a locked position; a lock assemblyposition detector for detecting whether the lock assembly is in thelocked position or the unlocked position; wherein the monitoring devicefurther includes a code generator that generates a first panel positionstatus code indicating that the panel is in the open panel position anda second panel position status code indicating that the panel is in theclosed panel position, and wherein the code generator further generatesa first lock position status code indicating that lock assembly is in anunlocked position and a second lock position status code indicating thatthe lock assembly is in a locked position.
 65. The device of claim 64wherein the device further includes a code transmitter for transmittingthe generated codes to a code receiver.
 66. The device of claim 65wherein the code transmitter is located within the device.
 67. Thedevice of claim 65 wherein the code receiver is located at a locationremote from the code transmitter.
 68. The device of claim 64 wherein thecode transmitter transmits wirelessly.
 69. The device of claim 64further including a code integrator that integrates the panel positionstatus code and the lock position status code into a combined set ofcodes.
 70. The device of claim 69 wherein the combined set of codesincludes codes indicating one of the following: a) the panel is in theopened position regardless of whether the lock assembly is in the lockedor the unlocked position; b) the panel is in the closed position withthe lock assembly in the unlocked position; c) the panel is in theclosed position with the lock assembly in the closed position.
 71. Thedevice of claim 64 wherein the code generator is located within thedevice.
 72. A status monitoring device for a window or door, the windowor door including at least one panel movable relative to a fixedstructure between an open panel position and a closed panel position,the device comprising: a first position sensor that detects the positionof the panel relative to an activating portion of the fixed structure,wherein the first position sensor is fixedly attached to the panel; asecond position sensor that detects the position of a movable element ofa lock assembly, wherein the second position sensor and the lockassembly are each fixedly attached to the panel, and the movable elementcan be in a locked position or an unlocked position; a code generatorthat generates codes from the position of the movable element of thelock and from the position of the panel to indicate whether the lockassembly is in a locked or an unlocked position and whether the panel isin an open or a closed position.
 73. The device according to claim 72wherein the codes are transmitted to a location remote from the panel.74. The device according to claim 72 wherein the activating portion is amagnet.
 75. The device according to claim 72 wherein the activatingportion is an RFID device.
 76. A status monitoring device for a windowor door, the window or door including at least one panel movablerelative to a fixed structure between an open panel position and aclosed panel position, the device comprising: a first position sensorthat detects the position of an activating portion of the panel relativethe fixed structure, wherein the first position sensor is fixedlyattached to the fixed structure; a second position sensor that detectsthe position of a movable element of a lock assembly, wherein the secondposition sensor and the lock assembly are each fixedly attached to thefixed structure, and the movable lock element can be in a lockedposition or an unlocked position; a code generator that generates codesfrom the position of the movable element of the lock assembly and fromthe position of the panel to indicate whether the lock assembly is in alocked or unlocked position and whether the panel is in an open or aclosed position.
 77. The device according to claim 76 wherein the codesare transmitted to a location remote from the fixed structure.
 78. Thedevice according to claim 76 wherein the activating portion is a magnet.79. The device according to claim 76 wherein the activating portion isan RFID device.
 80. A lock assembly for a first panel of a door orwindow slidable with respect to a second panel comprising: a basefixedly attached to the first panel; a latch movably attached to thebase and movable between a locked position and an unlocked position; akeeper fixedly attached to the second panel and located such that thelatch engages the keeper when the latch is in a locked position and thepanel is in the closed position; a first sensor fixedly attached to thefirst panel for detecting the position of the first panel relative tothe second panel independent of the lock position; a second sensorfixedly attached to the first panel for detecting whether the latch isin the locked or unlocked position independent of whether the firstpanel is in the open or closed position; and a code generator forgenerating codes defining a status of first panel, wherein the codesdefine the status as being one of the following: panel open, latchunlocked; panel open, latch locked; panel closed, latch unlocked; orpanel closed, latch locked; wherein the second panel is movable betweenopen and closed positions.
 81. The lock assembly of claim 80 wherein thefirst sensor is fixedly attached to the first panel.
 82. The lockassembly of claim 80 wherein the second sensor is fixedly attached tothe first panel.
 83. The lock assembly of claim 80 wherein the firstsensor detects the panel position of the first panel relative to thesecond panel independent of the lock position.
 84. The lock assembly ofclaim 80 wherein the second sensor detects whether the latch is in thelocked or unlocked position independent of whether the first panel is inthe open or closed position.